CN115744197A - Medical starch conveying device capable of reducing stacking pressure in transmission mode - Google Patents

Abstract

The invention relates to the technical field of transportation, in particular to a transmission type medical starch transportation device capable of reducing stacking pressure. It is including accepting transmission device, accepts transmission device tip and is equipped with and extends transmission device, extends transmission device and is used for prolonging the scope of transmission and realizes transmitting a plurality of removal starch in proper order, and extends transmission device and includes at least: the transmission assembly is used for transporting medical starch in a high-low stacking route, two adjacent transmission assemblies are close to the end portion, a vertical dropping assembly is arranged between the end portions, and the vertical dropping assembly is used for buffering the medical starch and is connected to the transmission assembly at the low position from the transmission assembly at the high position to continue transmission. According to the invention, medical starch is sequentially transmitted through the receiving and transmitting mechanism, the transmission assembly and the vertical falling assembly, the transmission distance is long, and sufficient space is provided for sequentially unloading from one end of the conveying device after more medical starch is completely conveyed to one end of the conveying device, so that the medical starch accumulation is avoided, and the labor intensity is increased.

Description

Medical starch conveying device capable of reducing stacking pressure in transmission mode

Technical Field

The invention relates to the technical field of transportation, in particular to a transmission type medical starch transportation device capable of reducing stacking pressure.

Background

The medicinal starch is generally white or light yellow powder, is odorless and tasteless, is not dissolved in cold water, can be changed into a transparent solution in hot water, cannot be frozen after being cooled, is generally prepared from millet or rice, corn and other starches, is generally used as an outer coating of a medicine, such as a capsule, a sugar coating, and the like, is a pharmaceutical auxiliary material with very wide application, can also be prepared into a sterilizing disinfectant, such as sweet potato starch or corn starch, and can be prepared into a sterilizing product with higher sterilizing requirement, the sterilizing product is characterized by high sterilizing speed, certain fungi, intestinal bacilli and pyococcus can be killed within 40 minutes, and the medicinal starch sterilizing disinfectant completely conforms to relevant regulations of pharmacopoeia;

then, when the medical starch is transported to a pharmaceutical factory for manufacturing a medicine, a transport device is needed, at present, a transport machine is mostly adopted for transporting the medical starch from a truck to a room, but in a scene with a small space range, the transport machine can only accommodate a short transport machine, so that when a lot of medical starch is transported, particularly under the condition of only one worker, after the worker transports the medical starch to the transport device for transport, the medical starch is accumulated before finishing the medical starch, or the medical starch is stacked and transported, so that the carrying strength of the transport machine is high, and the labor intensity of the worker transporting the lot of medical starch is high.

Disclosure of Invention

The invention aims to provide a transmission type medical starch conveying device capable of reducing stacking pressure so as to solve the problems in the background technology.

In order to achieve the above object, the present invention provides a medical starch transportation device capable of reducing stacking pressure, comprising a receiving and transporting mechanism for transporting medical starch, wherein an extending and transporting mechanism is disposed at an end of the receiving and transporting mechanism, the extending and transporting mechanism is used for extending a transporting range to sequentially transport a plurality of mobile starches, and the extending and transporting mechanism at least comprises:

a plurality of transmission assembly who piles up the setting, transmission assembly is used for being the route transportation medical starch that the height piled up, and two adjacent transmission assembly are close to and are equipped with vertical subassembly that drops between the tip, and vertical subassembly that drops is used for buffering the medical starch of the transmission assembly that drops to the low department from the transmission assembly of eminence, and medical starch continues the transmission by the transmission assembly of low department after the buffering.

When medical starch is transported in a place with a limited space range, the medical starch is firstly sequentially placed on the receiving and transporting mechanism for transporting, the medical starch is firstly transported to the highest transporting assembly, then the medical starch is buffered by the vertical dropping assembly and drops to the lower transporting assembly for continuous transporting, the medical starch is sequentially transported in a reciprocating manner, the transporting route is increased, the transporting time length is prolonged, when only one worker carries out carrying on and off, the worker firstly carries a plurality of medical starches onto the receiving and transporting mechanism in sequence, then the medical starches are sequentially transported by the receiving and transporting mechanism, the transporting assembly and the vertical dropping assembly, the transporting distance is long, after a large amount of medical starch is completely carried to one end of the transporting device, enough space is provided for sequentially unloading from one end of the transporting device, and the labor intensity is prevented from being increased due to the accumulation of the medical starch.

As a further improvement of this technical scheme, a plurality of transmission subassembly all includes the extension frame, the inside rotation of extension frame is equipped with the transmission roller, wherein:

and an extension conveying belt for placing medical starch for conveying is arranged between the two conveying rollers in a meshed manner.

As a further improvement of the technical scheme, the end part of one of the transmission rollers is connected with an output shaft of a second motor, the second motor is embedded in the extension frame, and the rotation directions of two adjacent second motors are opposite, so that the transmission directions of two adjacent extension transmission belts are opposite.

As a further improvement of this technical scheme, the vertical subassembly that drops is including fixing the spacing frame between two adjacent extension frame tip, the inside upper and lower slip of spacing frame is equipped with the loading board, wherein:

the medical starch conveying device is characterized in that a reset buffer assembly is fixedly connected between the bearing plate and the bottom of the inner cavity of the limiting frame, and the reset buffer assembly is used for enabling the bearing plate to descend in a buffering mode under the weight of medical starch when the medical starch is conveyed to the bearing plate.

As a further improvement of the technical scheme, the upper surface of the bearing plate is provided with an inclined surface for guiding away the medical starch transmitted to the bearing plate.

As a further improvement of the technical scheme, the reset buffer assembly comprises an elastic piece, and two ends of the elastic piece are respectively fixed on the bottom of the bearing plate and the end part of the inner cavity of the limiting frame.

As a further improvement of the technical scheme, a shell rod fixedly connected with the bottom of the bearing plate is arranged inside the elastic part, a sliding plate is arranged inside the shell rod in a sliding mode, an inner rod is connected to the bottom of the sliding plate, the lower end of the inner rod extends out of the interior of the shell rod, and the lower end of the inner rod is fixedly connected with the end portion of the inner cavity of the limiting frame.

As a further improvement of the technical scheme, the inner wall of the shell rod is provided with a plurality of grooves, and the outer wall of the sliding plate is provided with a plurality of convex plates which are in sliding fit with the grooves.

As a further improvement of this technical scheme, the receiving and conveying mechanism includes the tilting frame, and the tilting frame is fixed with the extending frame end connection of the top through the yoke that the tip was equipped with, wherein:

two symmetrical carrying rollers are rotatably arranged in the inclined frame, the outer walls of the two carrying rollers are meshed with carrying transmission belts, and the end of one carrying roller is connected with a first motor output shaft.

Compared with the prior art, the invention has the following beneficial effects:

1. in this reducible medical starch of stacking pressure of driven type conveyer for starch, through medical starch in proper order accept transmission mechanism, transmission assembly and the vertical subassembly that drops transmit, it transmits medical starch to make a plurality of transmission assemblies and a plurality of vertical subassemblies that drop pile together in proper order to medical starch, transmit along the direction of arrow point, be favorable to the medical starch of transmission that need not pile up, the route distance of increase transmission, the length of time that also is to increase medical starch transmission, convenience of customers in time arranges the medical starch after the transportation in proper order, it is great to avoid medical starch to pile up the transmission and cause the conveyer transmission range, and the space that occupies is less.

2. In this medical starch of reducible pressure of piling up of driven type conveyer for starch, drive the transmission roller by second motor output shaft and rotate, make a plurality of extension transmission bands that pile up form circuitous transmission route, make things convenient for medical starch to transmit in proper order on longer transmission distance.

3. In this reducible pressure's of piling up of driven medical starch conveyer for, be located the inclined plane of loading board through medical starch, make loading board downstream under medical starch gravity, simultaneously, medical starch is along the transmission assembly of inclined plane landing in the below, guarantees that dropping of medical starch is safer.

4. In this medical starch of reducible pressure of piling up of driven type is with conveyer, slide in shell pole inside through the sliding plate, flange and recess adaptation, increase and the area of contact of shell pole inner wall to improve the gliding frictional force of sliding plate, reduce the weight that medical starch is located the loading board through frictional force, the impact of jolting when buffering to medical starch descends improves the security.

Drawings

FIG. 1 is an assembly view showing the overall structure of embodiment 1 of the present invention;

fig. 2 is a schematic structural view of an extension conveying mechanism according to embodiment 1 of the present invention;

FIG. 3 is a sectional view showing the entire structure of example 1 of the present invention;

fig. 4 is a structural exploded view of a transmission assembly according to embodiment 1 of the present invention;

fig. 5 is an exploded view of a vertical drop assembly structure of embodiment 1 of the invention;

fig. 6 is a schematic structural view of a stop bracket according to embodiment 1 of the present invention;

FIG. 7 is a schematic view of a carrier structure according to embodiment 1 of the present invention;

FIG. 8 is a anatomical cutaway view of the reduction buffer assembly of embodiment 1 of the present invention;

FIG. 9 is an exploded view of the outer shell rod and the inner rod structure in accordance with embodiment 1 of the present invention;

fig. 10 is a schematic structural view of a receiving and conveying mechanism according to embodiment 1 of the present invention.

The various reference numbers in the figures mean:

100. a carrying and conveying mechanism;

110. an inclined frame; 111. A connecting fork;

120. a receiving roller; 121. A first motor; 122. Carrying a conveying belt;

200. an extension transmission mechanism;

210. a transmission assembly;

211. an extension frame; 212. a transfer roller; 2120. a second motor; 213. extending the conveyor belt;

220. a vertical drop assembly;

221. a limiting frame; 222. a carrier plate; 223. resetting the buffer assembly; 2231. an elastic member; 2232. a housing rod; 2233. an inner rod; 2234. a sliding plate; 2235. a convex plate; 2236. and (6) a groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1 to 10, this embodiment provides a driving type medical starch transportation device capable of reducing stacking pressure, which includes a receiving and transporting mechanism 100 for transporting medical starch, and when medical starch is transported to a pharmaceutical factory for manufacturing a pharmaceutical product, medical starch needs to be transported from a truck to a room, so that medical starch is respectively and sequentially placed on the receiving and transporting mechanism 100 for transportation, thereby avoiding the strength of back and forth transportation for workers, but in a smaller space range, only a shorter transport machine can be accommodated, so that when a lot of medical starch is transported, especially in a case of only one worker, after the worker transports medical starch to the transportation device for transportation, medical starch accumulation may be caused without arranging medical starch, or medical starch is transported in a stacked manner, which results in a higher loading strength of the transport machine, and the labor intensity of the worker transporting a lot of medical starch on the transport machine is high, and in addition, if a plurality of transport machines with different heights are used for transporting medical starch in a stacked manner in a sequential manner, starch from the transport machines with different heights is not easy to drop, and damage is reduced, in this way, a specific stacking type of the following is proposed:

because on carrying medical starch to the conveyer, need further disclose and accept conveying mechanism 100, ensure that medical starch can be carried on preferential board area accepts conveying mechanism 100 and carry out the transmission, accept conveying mechanism 100 and include sloping frame 110, sloping frame 110 is fixed with the extension frame 211 end connection of the top through the hookup fork 111 that the end was equipped with, wherein:

two symmetrical receiving rollers 120 are rotatably arranged in the inclined frame 110, the outer walls of the two receiving rollers 120 are meshed with receiving transmission belts 122, the end part of one receiving roller 120 is connected with an output shaft of a first motor 121, the first motor 121 is connected with a power supply to enable the receiving roller to work, the output shaft of the first motor 121 drives the receiving roller 120 to rotate, medical starch placed at one end of the receiving transmission belts 122 is transported along with the meshing transmission of the receiving rollers 120 through the receiving transmission belts 122, the medical starch is transported to the transport assembly 210, the medical starch can be continuously transported on the extension transport mechanism 200, and the structural integrity is guaranteed.

It should be noted that the end of the receiving and conveying mechanism 100 is provided with an extending and conveying mechanism 200, the extending and conveying mechanism 200 is used for extending the conveying range to sequentially convey a plurality of mobile starches, and the extending and conveying mechanism 200 at least includes:

a plurality of transmission components 210 that stack up the setting, transmission component 210 is used for being the route of high low pile up and transporting medical starch, two adjacent transmission components 210 are close to and are equipped with vertical subassembly 220 that drops between the tip, vertical subassembly 220 that drops is used for the buffering receives medical starch from the transmission component 210 of eminence to continue the transmission on the transmission component 210 of low, consider that the transportation scope is limited, the duration that leads to the transmission is shorter, it is too late to put together the medical starch that transmits the position, medical starch can continuously drop from the conveyer and cause the pile up, if pile up the transmission when transmitting more medical starch, lead to the great damage of bearing strength of conveyer, therefore, through medical starch in proper order through accepting transmission mechanism 100, transmission component 210 and the transmission of the subassembly 220 that drops, make a plurality of transmission components 210 and a plurality of vertical subassemblies 220 of dropping pile up together and transmit medical starch in proper order, as shown in fig. 3, transmit along the direction of arrow, be favorable to the transmission medical starch that does not need pile up, increase the route distance of transmission, that also is the duration that the medical starch transmission after the timely arrangement of user, avoid the transmission machine to be stacked up in proper order to cause the transport scope, and the starch to occupy less.

According to the above-mentioned needs, further disclosing the transmission assemblies 210, thereby ensuring the functionality of medical starch transportation, specifically as shown in fig. 4, each of the plurality of transmission assemblies 210 comprises an extension frame 211, and a transmission roller 212 is rotatably arranged inside the extension frame 211, wherein:

the extension transmission band 213 that is used for placing medical starch and carries out the transmission is equipped with in the meshing between two transmission rollers 212, rotates through transmission rollers 212 to drive and extend transmission band 213 along transmission rollers 212 meshing transmission, putting medical starch on the surface that extends transmission band 213 and be close to one end, along with the transmission of extension transmission band 213, make medical starch drop from the flexion that extends the transmission band 213 other end, realize medical starch's transportation.

Specifically, in order to provide power for the transmission rollers 212 and ensure the transmission of the extension transmission belts 213, the end of one of the transmission rollers 212 is connected with the output shaft of the second motor 2120, the second motor 2120 is embedded inside the extension frame 211, the rotation directions of two adjacent second motors 2120 are opposite, the transmission directions of two adjacent extension transmission belts 213 are opposite, so that the plurality of second motors 2120 are powered on to work, the output shaft of the second motor 2120 drives the transmission rollers 212 to rotate, the plurality of stacked extension transmission belts 213 form a circuitous transmission route, and medical starch can be conveniently transmitted in a long transmission distance in sequence.

According to the above, if medical starch between two transmission assemblies 210 is buffered and dropped to continue transportation, a vertical dropping assembly 220 needs to be further disclosed, specifically as shown in fig. 5, the vertical dropping assembly 220 includes a limiting frame 221 fixed between two adjacent extending frames 211, a bearing plate 222 is arranged inside the limiting frame 221 in a vertically sliding manner, wherein:

fixedly connected with buffer component 223 that resets between loading board 222 and spacing 221 inner chamber bottom, buffer component 223 that resets is used for when medical starch transmits to loading board 222 on, under medical starch weight, make the decline of loading board 222 buffering, when dropping to loading board 222 top from the transmission component 210 of top through medical starch, under medical starch gravity, make loading board 222 drive medical starch slowly drop to the transmission component 210 of below and continue to transmit through buffer component 223 that resets, after medical starch breaks away from loading board 222, make loading board 222 reset to the transmission component 210 tip of top under buffer component 223 elasticity that resets, thereby realize reciprocating the transmission medical starch in proper order.

To be noted, in order to prevent the medical starch from being inconveniently removed from the carrying board 222, as shown in fig. 7, the upper surface of the carrying board 222 is formed as an inclined surface for guiding away the medical starch transferred to the carrying board 222, the carrying board 222 is moved downward by the gravity of the medical starch by the medical starch being located on the inclined surface of the carrying board 222, and meanwhile, the medical starch slides down on the transferring assembly 210 below along the inclined surface, thereby ensuring the structural integrity.

Further, when the lifting of the bearing plate 222 is buffered, the reset buffer assembly 223 needs to be further disclosed, the reset buffer assembly 223 includes an elastic member 2231, two ends of the elastic member 2231 are respectively fixed on the bottom of the bearing plate 222 and the end of the inner cavity of the limiting frame 221, through the elastic member 2231, the elastic member 2231 is compressed after the medical starch falls onto the bearing plate 222, then under the elastic force of the elastic member 2231, the bearing plate 222 drives the medical starch to descend, after the medical starch is separated from the bearing plate 222, the elastic member 2231 resets the bearing plate 222.

Because elastic component 2231 easily squints and causes the damage in compression or reset process, influence the reseing of follow-up loading board 222, consequently, be equipped with the outer casing pole 2232 of being connected fixedly with loading board 222 bottom through elastic component 2231 is inside, the inside slip of outer casing pole 2232 is equipped with sliding plate 2234, sliding plate 2234 bottom is connected with interior pole 2233, interior pole 2233 lower extreme stretches out inside outer casing pole 2232, and fixed connection spacing frame 221 inner chamber tip, when compressing or reseing through elastic component 2231, the sliding plate 2234 that makes inner pole 2233 connect moves from top to bottom in outer casing pole 2232 is inside, it is spacing to make elastic component 2231 carry out along the direction of sliding plate 2234 motion, avoid outside skew distortion, improve elastic component 2231's life.

In order to further improve the falling speed of the medical starch on the bearing plate 222, a plurality of grooves 2236 are formed in the inner wall of the housing rod 2232, a plurality of convex plates 2235 in sliding fit with the grooves 2236 are arranged on the outer wall of the sliding plate 2234, the sliding plate 2234 slides inside the housing rod 2232, the convex plates 2235 and the grooves 2236 are in fit, the contact area with the inner wall of the housing rod 2232 is increased, so that the sliding friction force of the sliding plate 2234 is improved, the weight of the medical starch on the bearing plate 222 is reduced through the friction force, the bumping impact of the medical starch during falling is buffered, and the safety is improved.

When medical starch is transported in a field with a limited space range, the medical starch is firstly sequentially placed on the receiving and transporting mechanism 100 for transporting, the medical starch is firstly transported to the highest transporting assembly 210, then the medical starch is buffered by the vertical dropping assembly 220 and drops to the lower transporting assembly 210 for continuous transporting, the medical starch is transported in sequence in a reciprocating manner, the transporting route is increased, the transporting time is prolonged, when only one worker moves up and down, the worker firstly sequentially transports a plurality of medical starches to the receiving and transporting mechanism 100, then sequentially transports the medical starch through the receiving and transporting mechanism 100, the transporting assembly 210 and the vertical dropping assembly 220, the transporting distance is long, after all the medical starch is transported to one end of the transporting device, enough space is provided for sequentially unloading from one end of the transporting device, and the labor intensity is prevented from being increased due to the accumulation of the medical starch.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only preferred examples of the present invention and are not intended to limit the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, which fall within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A medical starch transporter of reducible stack pressure of driven formula, includes accepting transport mechanism (100) for transmitting medical starch, its characterized in that: the end of the receiving and conveying mechanism (100) is provided with an extending and conveying mechanism (200), the extending and conveying mechanism (200) is used for extending the conveying range to realize the sequential transmission of a plurality of mobile starches, and the extending and conveying mechanism (200) at least comprises:

a plurality of transmission subassemblies (210) that set up stack, transmission subassembly (210) are used for being the route of high low stack and transport medical starch, and two adjacent transmission subassemblies (210) are close to and are equipped with vertical subassembly (220) that drop between the tip, and vertical subassembly (220) that drop are used for buffering the medical starch that drops transmission subassembly (210) to the transmission subassembly (210) of low from transmission subassembly (210) of eminence, and medical starch is continued to be transmitted by transmission subassembly (210) of low after the buffering.

2. The driven medical starch transporter according to claim 1, wherein the stacking pressure is reduced by: the plurality of conveying assemblies (210) comprise extension frames (211), conveying rollers (212) are rotatably arranged inside the extension frames (211), and the conveying assemblies are characterized in that:

an extending conveying belt (213) used for placing medical starch for conveying is meshed between the two conveying rollers (212).

3. The driven medical starch transporter according to claim 2, wherein the stacking pressure is reduced by: one end of the transmission roller (212) is connected with an output shaft of a second motor (2120), the second motor (2120) is embedded inside the extension frame (211), and the rotation directions of two adjacent second motors (2120) are opposite, so that the transmission directions of two adjacent extension transmission belts (213) are opposite.

4. The driven medical starch transporter according to claim 2, wherein the stacking pressure is reduced by: vertical subassembly (220) that drops is including fixing spacing (221) between two adjacent extension frame (211) tip, spacing (221) inside slides from top to bottom is equipped with loading board (222), wherein:

a reset buffer component (223) is fixedly connected between the bearing plate (222) and the bottom of the inner cavity of the limiting frame (221), and the reset buffer component (223) is used for enabling the bearing plate (222) to descend in a buffering manner under the weight of medical starch when the medical starch is transmitted to the bearing plate (222).

5. The driven medical starch transporter according to claim 4, wherein the stacking pressure is reduced by: the upper surface of the bearing plate (222) is provided with an inclined surface for guiding away the medical starch transmitted to the bearing plate (222).

6. The driven medical starch transporter according to claim 5, wherein the stacking pressure is reduced by: reset buffer subassembly (223) and include elastic component (2231), elastic component (2231) both ends are fixed respectively on loading board (222) bottom and spacing frame (221) inner chamber tip.

7. The driven medical starch transporter according to claim 6, wherein the stacking pressure is reduced by: the elastic piece (2231) is internally provided with a shell rod (2232) fixedly connected with the bottom of the bearing plate (222), the shell rod (2232) is internally provided with a sliding plate (2234) in a sliding manner, the bottom of the sliding plate (2234) is connected with an inner rod (2233), and the lower end of the inner rod (2233) extends out of the shell rod (2232) and is fixedly connected with the end part of the inner cavity of the limiting frame (221).

8. The driven medical starch transporter according to claim 7, wherein the stacking pressure is reduced by: the inner wall of the shell rod (2232) is provided with a plurality of grooves (2236), and the outer wall of the sliding plate (2234) is provided with a plurality of convex plates (2235) which are matched with the grooves (2236) in a sliding way.

9. The driven medical starch transporter according to claim 2, wherein the stacking pressure is reduced by: the bearing and conveying mechanism (100) comprises an inclined frame (110), the inclined frame (110) is fixedly connected with the end part of the uppermost extending frame (211) through a connecting fork (111) arranged at the end part, wherein:

two symmetrical carrying rollers (120) are rotatably arranged in the inclined frame (110), the outer walls of the two carrying rollers (120) are meshed with a carrying conveying belt (122), and the end part of one carrying roller (120) is connected with an output shaft of a first motor (121).

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